Search Results - "Zwerver, A. J"

Loading a quantum-dot based “Qubyte” register by Volk, C., Zwerver, A. M. J., Mukhopadhyay, U., Eendebak, P. T., van Diepen, C. J., Dehollain, J. P., Hensgens, T., Fujita, T., Reichl, C., Wegscheider, W., Vandersypen, L. M. K.

“…Electrostatically defined quantum dot arrays offer a compelling platform for quantum computation and simulation. However, tuning up such arrays with existing…”
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Qubits made by advanced semiconductor manufacturing by Zwerver, A. M. J., Krähenmann, T., Watson, T. F., Lampert, L., George, H. C., Pillarisetty, R., Bojarski, S. A., Amin, P., Amitonov, S. V., Boter, J. M., Caudillo, R., Correas-Serrano, D., Dehollain, J. P., Droulers, G., Henry, E. M., Kotlyar, R., Lodari, M., Lüthi, F., Michalak, D. J., Mueller, B. K., Neyens, S., Roberts, J., Samkharadze, N., Zheng, G., Zietz, O. K., Scappucci, G., Veldhorst, M., Vandersypen, L. M. K., Clarke, J. S.

“…Full-scale quantum computers require the integration of millions of qubits, and the potential of using industrial semiconductor manufacturing to meet this need…”
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On-chip integration of Si/SiGe-based quantum dots and switched-capacitor circuits by Xu, Y., Unseld, F. K., Corna, A., Zwerver, A. M. J., Sammak, A., Brousse, D., Samkharadze, N., Amitonov, S. V., Veldhorst, M., Scappucci, G., Ishihara, R., Vandersypen, L. M. K.

“…Solid-state qubits integrated on semiconductor substrates currently require at least one wire from every qubit to the control electronics, leading to a…”
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Design and low-temperature characterization of a tunable microcavity for diamond-based quantum networks by Bogdanovic, S, van Dam, S. B, Bonato, C, Coenen, L. C, Zwerver, A. J, Hensen, B, Liddy, M. S. Z, Fink, T, Reiserer, A, Loncar, M, Hanson, R

“…Appl. Phys. Lett. 110, 171103 (2017) We report on the fabrication and characterization of a Fabry-Perot microcavity enclosing a thin diamond membrane at…”
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Reducing charge noise in quantum dots by using thin silicon quantum wells by Wuetz, B. Paquelet, Esposti, D. Degli, Zwerver, A. M. J, Amitonov, S. V, Botifoll, M, Arbiol, J, Sammak, A, Vandersypen, L. M. K, Russ, M, Scappucci, G

“…Nature Communications, 14, 1385 (2023) Charge noise in the host semiconductor degrades the performance of spin-qubits and poses an obstacle to control large…”
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Shuttling an electron spin through a silicon quantum dot array by Zwerver, A. M. J, Amitonov, S. V, de Snoo, S. L, Mądzik, M. T, Russ, M, Sammak, A, Scappucci, G, Vandersypen, L. M. K

“…PRX Quantum 4, 030303, (2023) Coherent links between qubits separated by tens of micrometers are expected to facilitate scalable quantum computing…”
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On-chip Integration of Si/SiGe-based Quantum Dots and Switched-capacitor Circuits by Xu, Y, Unseld, F. K, Corna, A, Zwerver, A. M. J, Sammak, A, Brousse, D, Samkharadze, N, Amitonov, S. V, Veldhorst, M, Scappucci, G, Ishihara, R, Vandersypen, L. M. K

“…Solid-state qubits integrated on semiconductor substrates currently require at least one wire from every qubit to the control electronics, leading to a…”
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Qubits made by advanced semiconductor manufacturing by Zwerver, A. M. J, Krähenmann, T, Watson, T. F, Lampert, L, George, H. C, Pillarisetty, R, Bojarski, S. A, Amin, P, Amitonov, S. V, Boter, J. M, Caudillo, R, Corras-Serrano, D, Dehollain, J. P, Droulers, G, Henry, E. M, Kotlyar, R, Lodari, M, Luthi, F, Michalak, D. J, Mueller, B. K, Neyens, S, Roberts, J, Samkharadze, N, Zheng, G, Zietz, O. K, Scappucci, G, Veldhorst, M, Vandersypen, L. M. K, Clarke, J. S

“…Nature Electronics 5, 184-190 (2022) Full-scale quantum computers require the integration of millions of quantum bits. The promise of leveraging industrial…”
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Loading a quantum-dot based "Qubyte" register by Volk, C, Zwerver, A. M. J, Mukhopadhyay, U, Eendebak, P. T, van Diepen, C. J, Dehollain, J. P, Hensgens, T, Fujita, T, Reichl, C, Wegscheider, W, Vandersypen, L. M. K

“…npj Quantum Information 5, Article number: 29 (2019) Electrostatically defined quantum dot arrays offer a compelling platform for quantum computation and…”
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Shuttling an Electron Spin through a Silicon Quantum Dot Array by Zwerver, A.M.J., Amitonov, S.V., de Snoo, S.L., Mądzik, M.T., Rimbach-Russ, M., Sammak, A., Scappucci, G., Vandersypen, L.M.K.

“…Coherent links between qubits separated by tens of micrometers are expected to facilitate scalable quantum computing architectures for spin qubits in…”
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Author Correction: Qubits made by advanced semiconductor manufacturing by Zwerver, A. M. J., Krähenmann, T., Watson, T. F., Lampert, L., George, H. C., Pillarisetty, R., Bojarski, S. A., Amin, P., Amitonov, S. V., Boter, J. M., Caudillo, R., Correas-Serrano, D., Dehollain, J. P., Droulers, G., Henry, E. M., Kotlyar, R., Lodari, M., Lüthi, F., Michalak, D. J., Mueller, B. K., Neyens, S., Roberts, J., Samkharadze, N., Zheng, G., Zietz, O. K., Scappucci, G., Veldhorst, M., Vandersypen, L. M. K., Clarke, J. S.

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Si MOS and Si/SiGe quantum well spin qubit platforms for scalable quantum computing by Pillarisetty, R., Watson, T.F., Mueller, B., Henry, E., George, H.C., Bojarski, S., Lampert, L., Luthi, F., Kotlyar, R., Zietz, O., Neyens, S., Borjans, F., Caudillo, R., Michalak, D., Nahm, R., Park, J., Ramsey, M., Roberts, J., Schaal, S., Zheng, G., Krahenmann, T., Lodari, M., Zwerver, A.M.J., Veldhorst, M., Scappucci, G., Vandersvpen, L.M.K., Clarke, J.S.

“…We discuss the engineering and physics of both Si MOS and Si/SiGe quantum well based spin qubit devices fabricated in a process compatible with CMOS high…”
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Infections caused by group F streptococci by Righter, J, Zwerver, J

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